| Refrigeration effect of La(FeCoSi)13B0.25 compounds and gadolinium metal in reciprocating magnetic refrigerator |
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| 引用本文: | 程娟,刘国栋,黄焦宏,刘翠兰,金培育,闫宏伟.Refrigeration effect of La(FeCoSi)13B0.25 compounds and gadolinium metal in reciprocating magnetic refrigerator[J].中国稀土学报(英文版),2013,31(12):1163-1167. |
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| 作者姓名: | 程娟 刘国栋 黄焦宏 刘翠兰 金培育 闫宏伟 |
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| 作者单位: | [1]National Engineering Research Centre of Rare Earth Metallurgy and Functional Materials', Baotou Research Institute of Rare Earths, Baotou 014030, China [2]School of Materials Science and Engineering, Hebei University of Technology, Tianjin 300000, China |
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| 基金项目: | supported by National High Technology Research and Development Program of China(2011AA03A404); International Cooperation Program(2011DFA53230); National Natural Science Foundation of China(51261001); Science Foundation of Inner Mongolia(2011MS0801) |
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| 摘 要: | The LaFe11.9–x Cox Si1.1 B0.25 with x=0.9 and x=0.82 compounds were synthesized from commercial purity raw materials.The magnetic property of LaFe11.9–x Cox Si1.1 B0.25 and Gd particles were tested on the reciprocating refrigerator at the same condition in order to compare the cooling capacity of the two materials.The results showed that the cooling velocity of Gd was obviously higher than that of LaFe11.9–x Cox Si1.1 B0.25.The maximum temperature span was 12.7 oC for LaFe11.0 Co0.9 Si1.1 B0.25,14.9 oC for Gd metal whose mass is the same as that of LaFe11.0 Co0.9 Si1.1 B0.25,8.1 oC for Gd metal whose volume is the same as that of LaFe11.0 Co0.9 Si1.1 B0.25.Series connection of LaFe11.0 Co0.9 Si1.1 B0.25 and LaFe11.08 Co0.82 Si1.1 B0.25 had the maximum cooling temperature span of 15.3 oC.
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| 关 键 词: | 往复式 化合物 制冷效果 磁制冷机 金属 香格里拉 钆 冷却能力 |
| 收稿时间: | 16 April 2013 |
Refrigeration effect of La(FeCoSi)13B0.25 compounds and gadolinium metal in reciprocating magnetic refrigerator |
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| CHENG Juan;LIU Guodong;HUANG Jiaohong;LIU Cuilan;JIN Peiyu;YAN Hongwei.Refrigeration effect of La(FeCoSi)13B0.25 compounds and gadolinium metal in reciprocating magnetic refrigerator[J].Journal of Rare Earths,2013,31(12):1163-1167. |
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| Authors: | CHENG Juan;LIU Guodong;HUANG Jiaohong;LIU Cuilan;JIN Peiyu;YAN Hongwei |
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| Affiliation: | CHENG Juan;LIU Guodong;HUANG Jiaohong;LIU Cuilan;JIN Peiyu;YAN Hongwei;National Engineering Research Centre of Rare Earth Metallurgy and Functional Materials,Baotou Research Institute of Rare Earths;School of Materials Science and Engineering,Hebei University of Technology; |
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| Abstract: | The LaFe11.9–xCoxSi1.1B0.25 with x=0.9 and x=0.82 compounds were synthesized from commercial purity raw materials. The magnetic property of LaFe11.9–xCoxSi1.1B0.25 and Gd particles were tested on the reciprocating refrigerator at the same condition in order to compare the cooling capacity of the two materials. The results showed that the cooling velocity of Gd was obviously higher than that of LaFe11.9–xCoxSi1.1B0.25. The maximum temperature span was 12.7 °C for LaFe11.0Co0.9Si1.1B0.25, 14.9 °C for Gd metal whose mass is the same as that of LaFe11.0Co0.9Si1.1B0.25, 8.1 °C for Gd metal whose volume is the same as that of LaFe11.0Co0.9Si1.1B0.25. Series connection of LaFe11.0Co0.9Si1.1B0.25 and LaFe11.08Co0.82Si1.1B0.25 had the maximum cooling temperature span of 15.3 °C. |
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| Keywords: | magnetic refrigeration magnetic temperature span magnetic entropy change adiabatic temperature change rare earths |
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